EP0870425A1 - Plunger press for production of crop bales - Google Patents

Abstract

The baler picks up the crop from the field and passes it to gathering arms which push the crop into a compact charge prior to moving the charge into the main baling duct (2). A sensor (35) near the gathering position monitors the pressure of gathered crops and the size of the charge until it is ready to add to the main baling duct. The gathering arms (18) are operated in a cyclic drive by a system of linked arms driven by a crank drive. The alignment of the linked arms is changed when the compressed crop charge is ready to be pushed into the main baling duct. The transfer of crop to the main baling duct depends on the feed rate to the gathering system.

Description

The invention relates to a self-propelled or drawn piston press for the manufacture of Bale of harvested crop with a movable back and forth in a baling channel via a crank mechanism Press plunger, a feed channel opening into the press channel and one Press channel assigned, consisting of packer lever and tines Gutraffer, which is also from a crank mechanism is movable, the path of movement of the rake tines to be carried out of feed or loading strokes is changeable and the rafters lever rotatable on crank pin are stored and their end areas opposite the shirring tips with one end of connecting rods are connected, the other ends of which are attached to a portable one Storage are attached, and a receiving device for the pressed material and drive and Control devices for operating the piston press.

A piston press of the aforementioned type is shown for example in DE 36 38 792 and described. In this piston press, the crank mechanism for the plunger is with the crank mechanism for the rake tines so positively connected that the rake tines after every two Feeding strokes in which crop material is only fed into the feed channel, a loading stroke run through which the crop temporarily stored in the feed channel into the baling channel is handed over. This sequence of movements of the rake tines is repeated cyclically, so that Even if there is hardly any crop in the feed channel, every third gatherer stroke should be essential is a loading stroke. From this it follows that with each loading stroke different amounts and different pre-pressed crop is conveyed into the actual baling channel. The one out of this Resulting disadvantage is to be seen in the fact that the end product in particular fluctuating amount of the pressed material taken up unevenly compressed or shaped Bales can be formed.

To avoid unevenly formed bales, it is known (DE 27 59 533) in which Feed channel of a baler a conveyor roller or fingers to provide a rotary conveyor, which crop against one protruding into the feed channel Pressure sensor promotes. In addition to the conveyor roller, rake tines are provided, which are switched on the pressure sensor when a preset pressure is reached, that they dip into the conveyor channel through slots and the material pre-pressed there into the Convey the actual press channel. By arranging a working with controlled fingers Conveyor drum in conjunction with those additionally required for the loading stroke Such a press is extremely complex in terms of construction. It is also enough in difficult Conditions the conveying effect and range of the conveyor drum is not sufficient to the Fill the feed channel completely.

In addition, DE 195 31 240 describes a generic piston press with a rotary conveyor shown, whose funding is movable in its movement along its funding curve are. In the description it is mentioned as a task that the filling of the baling channel with as much as possible uniformly dense portions. The equalization of the The portion of the task is to be effected by influencing the curve path of the funding, which results in a variation in volume and density of the portion portions should. However, this solution is unsuitable with only a small amount of material, an even one to be able to create a dense portion of the task, because if the required minimum volume is undershot the filling volume of a serving portion is no longer sufficient for the baling channel fill in to the top. In addition, rotary conveyors have the higher manufacturing costs principle disadvantage that the roles of the guide for the controlled fingers are subject to high wear.

The present invention is therefore based on the object of a piston press at the outset Specified type, which only with lever arm-controlled Rafferzinken as conveying bodies works to train in such a way that without the aid of further conveyor elements in the feed channel one is still largely used even with smaller amounts of harvested crop uniform pre-compression of the crop and formation of a bale can be achieved can.

This object is achieved by changing the position of the rake tines remote bearing of the link rods by a control signal at least one in or on the feed channel provided, triggered directly or indirectly by the conveyed sensor. The control signal can be electrical, electronic, mechanical, hydraulic or sensors or actuators with the same effect are determined and / or transmitted. The conveyed good can act directly on the sensor, or a measured variable is activated via levers, buttons, lights or other means of transmission indirectly to the sensor. With an indirect The sensor can also transfer the effect of the conveyed material outside of the sensor Feed channel can be arranged. In the proposed way it is achieved that in contrast to the press after the German patent 36 38 792 only then carried out loading strokes if the goods in the feed channel are available in sufficient quantities and pre-pressed enough. The rake tines can vary depending on the control signal Pass through curved paths, at least one of which can be switched via the control signal Curved track enables the loading of the press chamber with a portion of the material to be pressed. A complete equality in shape and density of the loading portions can be achieved with the device can not be achieved, but omitting one or more loading strokes ensures that even with a small amount of material to be pressed always sufficient material to be pressed into the Bale chamber is promoted to pre-compress the material to be pressed and the bale chamber to be able to fill in in full. These effects are very important prerequisites to form evenly shaped bales.

Further advantageous embodiments of the invention result from the subclaims and the present description.

Figur 1:

eine Kolbenpresse mit einer oberhalb der Preßkammer angeordneten Steuervorrichtung,

Figur 2:

eine Kolbenpresse mit einer unterhalb der Preßkammer angeordneten Steuervorrichtung,

In the following, the invention will be explained in more detail with the aid of an exemplary embodiment and some of the figures which represent it schematically. Show it:

Figure 1:

a piston press with a control device arranged above the press chamber,

Figure 2:

a piston press with a control device arranged below the press chamber,

In FIG. 1, 1 denotes a press which reciprocates a press channel 2 and one in the latter forth movable plunger 3. The latter is via a connecting rod with a crank pin 4 connected, which is attached to a crank arm 5 which is rotatably connected to the shaft 7 connected is. This is driven by a worm wheel 8 and a worm 9. The Screw 9 is in a known manner via the shaft 10 to the PTO of the press 1st pulling tractor coupled. A similar drive structure results for a self-propelled Piston press. The shaft 7 and the packer crankshaft 14 with the crank arms 15 are in one constant gear ratio to each other. At the free ends of the crank arms 15 crank pins 16 are arranged, on which the claw levers 17 are rotatably mounted. The the Raffer tines 18 facing away from the ends of the Raffer levers 17 are connected with articulated rods 19, whose bearings 20 are changeable in their position. For this purpose, the bearings 20 are on Articulated levers 21 which are pivotable about a fixed point 22. At least one of the camps 20 is connected via a coupling 23 to a pin 24, the crank arm on a shaft 26 is attached. On the shaft 26, a sprocket 27 is placed, which if necessary with the shaft 26 can be connected via a single-speed clutch 28. A chain 29 wraps around both the sprocket 27 as well as the sprocket fixed on the crankshaft for the plunger 3 30th

An arm 31 is attached to the lever 21, the free end of which is a guide body 32 wearing. The guide body 32 has a through hole through which a rod 33 reaches through with play. The latter is articulated on a shift lever 34, which is fixed to one pivotable segment 35 is connected. The rod 33 is surrounded by a spring 36 which one end of the guide body 32 and the other end of the shift lever 34 supports. As a result, the shift lever 34 and thus also the pivotable segment 35 held in the position shown with full lines, in which the pivotable segment partially protrudes into the feed channel 37. The shift lever 34 could also be arranged on a movably Wall of the feed channel 37 may be arranged, or the filling of the feed channel 37 could instead of by means of a circuit via a shift lever 34 also by measurement the mechanical load on the walls of the feed channel 37, on parts of the track or from working components such as the shirring device to strain gauges and rotary potentiometers transmitted movements of measuring fingers, via optical sensors, the level of the feed channel 37 monitor, or other equivalent means are determined. The list of these measuring devices and sensors is only to be understood as an example A person skilled in the art should have no difficulty in using these or other sensor and measuring means known per se according to the invention. Based on the assignment of the individual elements to each other it is determined how critical filling states of the feed channel 37 are avoided can be. A critical fill level can arise if the shift lever 34 is closed low filling of the feed channel 37 does not switch on the control curve for the loading stroke, but then during the next cycle of the plunger 3 as much material to be pressed into the feed channel 37 is conveyed by the rake tines 18, that its capacity is overwhelmed and as a result clogs the feed channel, the overload clutches respond or loss of material to be pressed occurs because the material to be pressed falls out of the piston press. To such To avoid overload, it is important to shape the path of movement 41, the positioning of the segment 35 in the feed channel 37, the spring force of the spring 36, the swivel path of the Shift lever 34 to the switching point and its pivot angle to coordinate well. As a rough guide for the decision as to whether the good portion goes into the bale chamber 3 Should be promoted or not, it can be said that when the feed channel is filled around more than 2/3 of the capacity of the feed channel 37 if in doubt a feed of the Pressed material should take place in the press chamber 3. However, this value can vary depending on the material being pressed change because the good properties of straw, hay or silage differ significantly from one another distinguish, and it can be advantageously provided a controlled feed control be, in which the user of the piston press preselects only the material to be pressed and the control the piston press 1 automatically selects the appropriate switching points.

During the operation of the press 1, this is done in the field, for example, by a combine harvester deposited swath picked up by a tine drum 38 and, if necessary with the interposition of a cooperating rotor provided with cutting knives 39, into the feed channel 37. This material is then from the Rafferzinken 18 in Moved towards the segment 35. The rake tines pass through the one designated 39a Trajectory. As soon as there is a sufficiently large quantity of crop with a correspondingly high Has built up pressure in front of the pivotable segment 35, this is counter to the force the spring 36 pivoted clockwise and thereby actuates a switch 40. The Switch 40 can only act on clutch 28 if switch 43 is also actuated is, the synchronization of the movement of the rake tines 18 with that of the plunger 3rd effect. Switch 43 prevents the rake tines from a loading stroke execute when the plunger 3 closes the supply opening 42 with its underside. Of the Switch 43 is actuated by the switching link 44 attached to the crank arm 5 when the Piston 3 moves to its front dead center position seen in the direction of travel and thereby the loading opening 42 is released by the piston. The synchronization of the control device with the movement of the piston 3 can, however, also via other switches or sensors are monitored, such as the plunger 3 directly assigned mechanical Tactile fingers, electrical or optical sensors that transmit electrical control signals, or other means. The actuation of the switch 43 causes the sprocket via the clutch 28 27 permanently connected to the crankshaft 26 for the period of at least one packer stroke is so that the bearing 20 via the coupling 23 about its fixed point 22 in the position 20a are pivoted. Since the arm 31 also pivots upward, the spring 36 is relaxed and the segments 35 are easily pivoted out of the feed channel 37 by the crop, so that the segments 35 of the material promotion have no significant resistance Afford. Due to this change in position of the bearing 20, the path of movement also changes Rafferzinken 18, which then for at least one stroke, the path designated 41 for go through a loading stroke. As a result, the pre-pressed in the feed channel 37 Well conveyed through the opening 42 in the baling chamber 2 of the baler 1, the Plunger 3 assumes the position shown in full lines and opens the opening 42. After the loading stroke has ended, the bearings 20 are moved back into their basic position and thus at the same time the segment 35 is pivoted back into the feed channel 37. In this basic position, the rake tines 18 then pass through the one designated 39a Train. It should also be mentioned that the drives from shaft 7 to shaft 14 and to shaft 26 have a gear ratio of i = 1: 3 or i = 1: 2. At i = 1: 2 go the loading stroke at least one pre-compression stroke and at i = 1: 3 at least two pre-compression strokes.

Instead of the bearings 20 by the control device provided with the reference numerals 24 to 30 to pivot, it is also conceivable to pivot by a not shown To effect electric or hydraulic motor, which is comparable to the movement the piston 3 is synchronized.

Figure 2 shows the solution according to the invention in a piston press 1 with a different structure of the gear train. Instead of driving the shaft 26 from the shaft 7 of the crank arms 5 derive, in the embodiment shown in Figure 2, the driving force of one central drive shaft 50 in the main gear 52 via the drive connection with each other standing spur gears 54 derived. The advantage of this arrangement is that of chain drives Low-maintenance and less wear-prone spur gear stages can be seen. In addition is the overall height of a piston press 1 equipped in accordance with this exemplary embodiment less, and the construction cost is less because the driving force for the control device can be provided by extending a bearing shaft for a spur gear 54. On the Bearing shaft 26 only needs to be fitted with crank 25 and single-speed clutch 28. For the rest, the explanations for FIG. 2 apply Figure 1 accordingly.

Claims (17)

Self-propelled or pulled piston press for producing baling bales from crops with a baling piston which can be moved back and forth in a baling channel via a crank mechanism, a feed channel opening into the baling channel and a gutraffer, which is assigned to the balancing channel and consists of an elevator lever and tines, which is also a crank mechanism is movable, the movement path of the rake tines for changing the feed or loading strokes is variable and the rake levers are rotatably mounted on crank pins and their end regions opposite the raffle tips are connected to one end of articulated rods, the other ends of which are fastened to a positionable storage , and a receiving device for the material to be pressed and control and drive means for operating the piston press,
characterized,
that a change in position of the bearings (20) of the articulated rods (19) remote from the rake tines (18) is triggered by a control signal of at least one sensor (35) provided in or on the feed channel (37) and actuated directly or indirectly by the conveyed material. Piston press according to claim 1,
characterized,
that the bearings (20) with the lever (21) about the fixed point (22) are pivotable. Piston press according to claim 2,
characterized,
that at least one coupling (23) is connected to the lever (21) and can be moved back and forth via a crank pin (24). Piston press according to one or more of claims 1 to 3,
characterized,
that the arm (25) supporting the crank pin (24) is fastened to a shaft (26) which, if necessary, can be coupled to the crankshaft (7) of the plunger drive via a coupling (28). Piston press according to one or more of claims 1 to 3,
characterized,
that the shaft (26) is drive-connected to a central drive shaft (50) via drive means (54). Piston press according to one or more of claims 1 to 5,
characterized,
that the clutch (28) can be switched by the pressure sensor (35) provided in the feed channel (37) when the piston (3) moves to the front dead center. Piston press according to one or more of claims 1 to 6,
characterized,
that the pressure sensor (35) is designed as a segment projecting into the feed channel (37) and held in the basic position by means of spring force (spring 36). Piston press according to claim 7,
characterized,
that the spring force (spring 36) acting on the segment (35) is adjustable depending on the material to be pressed. Piston press according to one or more of claims 1 to 8,
characterized,
that the segment (35), after overcoming the spring force (spring 36) holding it in the basic position, pivots against a stop by the crop conveyed into the feed channel by the rake tines (18) and thereby actuates a switch (40) which, together with the switch ( 43) triggers the single-speed clutch (28). Piston press according to one or more of claims 1 to 9,
characterized,
that a lever is connected to the lever (34) with which the single-speed clutch (28) is actuated. Piston press according to one or more of claims 1 to 10,
characterized,
that the switch (43) is switched by a shift gate (44) when the piston moves to the front dead center. Piston press according to one or more of claims 1 to 11,
characterized,
that electrical, mechanical and / or hydraulic means are used to actuate the clutch (28) and the piston (3) depending on the position of the sensor (35). Piston press according to one or more of claims 1 to 12,
characterized,
that a switch lever (34) is fixedly connected to the segment (35), to which a rod (33) is articulated, which with its area remote from the switch lever engages through a guide body (32) with play, which is carried by an arm (31), which in turn is welded to the lever (21) pivotable about a fixed point (22). Piston press according to one or more of claims 1 to 13,
characterized,
that the spring force (spring 36) acting on the segment (35) is canceled or reduced during the loading stroke. Piston press according to one or more of claims 1 to 14,
characterized,
that the switch (40) can be continuously switched on manually in order to achieve maximum throughput with uniform, strong swaths. Piston press according to one or more of claims 1 to 15,
characterized,
that the control device (24-30) can be driven by an electric or hydraulic motor. Piston press according to one or more of claims 1 to 16,
characterized,
that sensors and actuators connected to monitoring electronics are used to control and / or regulate the movement paths (39a, 41) of the rake tines (18).

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